00191171-01.pdf - 第42页
Offset calib ration system for SIPLACE 80 S15 / S20 / F3 / F4 Oper ating M anual Edition 01/ 98 Page 42 of 47 IC head – Conveyor 2 The offset height for component camera 2, Offset-x/y_Hoehe2, must be alter ed. The correc…
Operating Manual Offset calibration system for SIPLACE 80 S15 / S20 / F3 / F4
Edition 01/98
Page 41 of 47
IC head – Single conveyor / conveyor 1
The offset height for component camera 2, Offset-x/y_Hoehe1, must be altered. The correction values
are entered in the machine data in
µ
m!
New Offset_x_Hoehe_1 = Old Offset_x_Hoehe_1 + Arithmetic mean
New Offset_y_Hoehe_1 = Old Offset_y_Hoehe_1 + Arithmetic mean
Example:
Arithmetic mean: x = 15
µ
m
Old offset x height 1: 5
µ
m
New offset x height 1: 15
µ
m + 5
µ
m = 20
µ
m
Arithmetic mean: y = -12
µ
m
Old offset y height 1: -5
µ
m
New offset y height 1: -12
µ
m + (-5
µ
m) = -17
µ
m
Entry in REAL.MA:
\ Hoehen_Offsets \
.....
\ BE-Kamera 2 \
.....
\ ** Offset_x_Hoehe1 ** \ 20
\ ** Offset_y_Hoehe1 ** \ -17
\ ** Hoehe1 ** \
Offset calibration system for SIPLACE 80 S15 / S20 / F3 / F4 Operating Manual
Edition 01/98
Page 42 of 47
IC head – Conveyor 2
The offset height for component camera 2, Offset-x/y_Hoehe2, must be altered. The correction values
are entered in the machine data in
µ
m!
New Offset_x_Hoehe_2 = Old Offset_x_Hoehe_2 + Arithmetic mean
New Offset_y_Hoehe_2 = Old Offset_y_Hoehe_2 + Arithmetic mean
Example:
Arithmetic mean: x = 30
µ
m
Old offset x height 2: -5
µ
m
New offset x height 2: 30
µ
m + (-5
µ
m) = 25
µ
m
Arithmetic mean: y = 15
µ
m
Old offset y height 2: -3
µ
m
New offset y height 2: 15
µ
m + (-3
µ
m) = 12
µ
m
Entry in REAL.MA:
\ Hoehen_Offsets \
.....
\ BE-Kamera 2 \
.....
\ ** Offset_x_Hoehe2 ** \ 25
\ ** Offset_y_Hoehe2 ** \ 12
\ ** Hoehe2 ** \
Operating Manual Offset calibration system for SIPLACE 80 S15 / S20 / F3 / F4
Edition 01/98
Page 43 of 47
3.4 Entering Corrections on the SIPLACE 80 S20
Gantry 1 – Single conveyor / conveyor 1
The offset height for component camera 1, Offset-x/y_Hoehe1, must be altered. The correction values
are entered in the machine data in
µ
m!
New Offset_x_Hoehe_1 = Old Offset_x_Hoehe_1 + Arithmetic mean
New Offset_y_Hoehe_1 = Old Offset_y_Hoehe_1 + Arithmetic mean
Example:
Arithmetic mean: x = 55
µ
m
Old offset x height 1: 5
µ
m
New offset x height 1: 55
µ
m + 5
µ
m = 60
µ
m
Arithmetic mean: y = -70
µ
m
Old offset y height 1: 10
µ
m
New offset y height 1: -70
µ
m + 10
µ
m = -60
µ
m
Entry in REAL.MA:
\ Hoehen_Offsets \
\ BE-Kamera 1 \
.....
\ ** Offset_x_Hoehe1 ** \ 60
\ ** Offset_y_Hoehe1 ** \ -60
\ ** Hoehe1 ** \